1. ¹Fels Institute for Cancer Research and Molecular Biology, Temple University, Philadelphia, PA, USA
2. ²Department of Biochemistry, Fels Institute for Cancer Research and Molecular Biology, Temple University, Philadelphia, PA, USA

Correspondence: Dr B Hoffman, Department of Biochemistry, Fels Institute for Cancer Research and Molecular Biology, Temple University, 3307 N Broad Street AHB 331, Philadelphia, PA 19140, USA. E-mail: hoffman@temple.edu

Received 17 March 2007; Revised 30 April 2007; Accepted 22 May 2007; Published online 25 June 2007.

Abstract

Deregulated growth and blocks in differentiation collaborate in the multistage process of leukemogenesis. Previously, we have shown that ectopic expression of the zinc finger transcription factor Egr-1 in M1 myeloblastic leukemia cells promotes terminal differentiation with interleukin-6 (IL-6). In addition, we have shown that deregulated expression of the oncogene E2F-1 blocks the myeloid terminal differentiation program, resulting in proliferation of immature cells in the presence of IL-6. Here it is shown that the positive regulator of differentiation Egr-1 abrogates the E2F-1-driven block in myeloid terminal differentiation. The M1E2F-1/Egr-1 cells underwent G₀/G₁ arrest and functional macrophage maturation following treatment with IL-6. Furthermore, Egr-1 diminished the aggressiveness of M1E2F-1 leukemias and abrogated the leukemic potential of IL-6-treated M1E2F-1 cells. Previously, we reported that Egr-1 abrogated the block in terminal myeloid differentiation imparted by deregulated c-myc, which blocks differentiation at a later stage than E2F-1, resulting in cells that have the characteristics of functionally mature macrophages that did not undergo G₀/G₁ arrest. Taken together, this work extends and highlights the tumor suppressor role of Egr-1, with Egr-1 behaving as a tumor suppressor against two oncogenes, each blocking myeloid differentiation by a different mechanism. These findings suggest that Egr-1 and/or Egr-1 target genes may be useful tools to treat or suppress oncogene-driven hematological malignancies.